并讨论了铒离子上转换发光机制。
稀土离子掺杂碲酸盐系统玻璃是一类应用前景良好的上转换发光材料。
Rare earth ions doped tellurite glasses are kinds of upconversion fluorescence materials which have good application prospect.
它具有较低的声子能量,较好的上转换发光强度,机械性能也比氟化物强。
This material is in low phonon energy state. It has better up conversion intensity, and its mechanism is better than fluoride.
以上结果可以为上转换发光纳米粒子在生物医学领域的应用提供有益的参考。
The results presented in this study provide a new insight for the upconversion luminescence nanoparticles in the biomedical applications.
本实用新型属于光学显微镜技术领域,具体为一种稳态激光泵浦上转换发光显微镜。
The utility model relates to a steady laser pumping up-conversion luminescence microscope which belongs to the technical field of an optical microscope.
氟氧化物玻璃陶瓷是具有氧化物的机械性能和氟化物的低声子能量的新型上转换发光材料。
Oxy fluoride glass ceramics is a new up converted luminescent material with strong mechanical strength just like oxide and low phonon energy just like fluoride.
目前研究工作的重点仍然是寻找最佳的上转换发光材料和深入理解上转换发光的激发机理。
Research works recently still focus on looking for the best upconversion materials and on understanding the upconversion excitation mechanism in depth.
本发明提供了一种可用于提高硅基太阳能电池能量转换效率的上转换发光材料及其制备方法。
The invention provides an up-conversion luminescent material used for improving the energy conversion efficiency of a silicon-based solar battery and a preparation method thereof.
研究了碲酸盐玻璃的拉曼光谱和红外光谱,分析了OH -对掺er3 +碲酸盐玻璃上转换发光的影响机制。
The Raman and infrared spectra of tellurite glasses were studied, and the influence mechanism of OH ~ -on upconversion luminescence of er ~ (3 +) -doped tellurite glasses was analyzed.
本发明是关于一种稀土离子双掺杂或者三掺杂的氧化钇基上转换发光材料及其制备方法,属于发光物理学中的发光材料领域。
The present invention relates to a rare earth ion double-doped or three-doped or three-doped yttrium oxide base up-conversion luminescence material and its preparation method.
可有效地被紫外―可见―近红外光激发,实现上转换和下转换发光,转换效率高。
It may be ultraviolet-visible light-near infrared excited to realize upwards and downwards conversion light emitting with high conversion efficiency.
可有效地被紫外―可见―近红外光激发,实现上转换和下转换发光,转换效率高。
It may be ultraviolet-visible light-near infrared excited to realize upwards and downwards conversion light emitting with high conversion efficiency.
应用推荐